Detailed information    

insolico Bioinformatically predicted

Overview


Name   rexA   Type   Machinery gene
Locus tag   AAEU35_RS07180 Genome accession   NZ_CP152294
Coordinates   1450108..1453719 (-) Length   1203 a.a.
NCBI ID   WP_317141425.1    Uniprot ID   -
Organism   Lactococcus lactis strain Q13     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 1445108..1458719
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  AAEU35_RS07155 - 1446874..1447218 (-) 345 WP_012896907.1 hypothetical protein -
  AAEU35_RS07160 - 1447472..1447795 (-) 324 WP_010905027.1 helix-turn-helix transcriptional regulator -
  AAEU35_RS07165 ychF 1447907..1449022 (-) 1116 WP_015425597.1 redox-regulated ATPase YchF -
  AAEU35_RS07170 - 1449304..1449861 (+) 558 WP_033900600.1 helix-turn-helix domain-containing protein -
  AAEU35_RS07175 - 1449871..1450071 (-) 201 WP_003132155.1 DUF951 domain-containing protein -
  AAEU35_RS07180 rexA 1450108..1453719 (-) 3612 WP_317141425.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  AAEU35_RS07185 rexB 1453712..1457011 (-) 3300 WP_317141424.1 ATP-dependent nuclease subunit B -
  AAEU35_RS07190 dnaN 1457117..1458259 (-) 1143 WP_003130856.1 DNA polymerase III subunit beta -

Sequence


Protein


Download         Length: 1203 a.a.        Molecular weight: 138732.78 Da        Isoelectric Point: 4.9912

>NTDB_id=891817 AAEU35_RS07180 WP_317141425.1 1450108..1453719(-) (rexA) [Lactococcus lactis strain Q13]
MSEVKLTPEQNEAIHSSGKNILVSASAGSGKTFVMAQRIVEKVKQGIEIDRLFISTFTKKAASELRMRLERDLKKARQES
SDENQARRLTLALQNLSNADIGTMDSFTQKLTKTNFNRVNIDPNFRILADQTESDLIRQEVFEQLVESYLSEDDGLNISK
EKFEELIKNFSKDRNIAGFQKVVYTIYRFASATENPIKWLENQFLKGFETYKSLTDLSADFSADIKENLLIFFELLETSL
TNGVIAKKGAGRDKANLILDNKNELLEAITTKDFATFTELFLSIDTDIRVGSSKDEILSALKKDFSAQKQDLVGSKSKPG
EIRKFVDKIKHGQLIEKYQNQAFEIAENLQKFVIEFYQSYLERKKNENAFEYSDIAHFAIEILEENPDIRETLREHYDEI
MIDEYQDTSHTQERMLELLSNGHNLFMVGDIKQSIYGFRLADPGLFLEKYKDYAKTENPNQLIRLKENFRSRGEVLTFTN
DIFKHLMDEKLGEITYGKEEALVQGNITDYPVESEKDFYPELLLYKENTSDEETDESEVRISDGEIKGAAQEIKKLIEAG
VEPKDIAILVRSKSNNNKIEDILLSYDIPVVLDEGRVDFLKSMEVLIMLDVLRAIDNPLYDLSLVAMLRSPLFGFNEDEL
TRISTQGSHDLRFWDKILLSLNKEGQNPELINPSLENKLKAFHKKFTEWRKLVNQVAIHDLLWKIYTETYYFDYVGALKN
GEMRQANLQALAVRAESYESSGYKGLFKFVRLINKFMEQNNDLASVNIKLPQNAVRVMTFHKSKGLEFDYVFLMNLQSRF
NDRDLKEDVILSRENGLGMKLIADLKDEADVITDFPYALVKMETFPYMVNKDLKQRAALSEEMRVLYVAFTRAKKKLYLV
GKIKETDKKSGLDLYDNASLEGKILEGKFRNSSRGFQHWILALQNATKLPIKLNVYTKEELEAEKLEFTSQPDFKKLVEE
SEKFDNIMAYSDEIQKAQKIMNYEYPHQAATELSSIQTPSQVKKRSYEKQLQVGEIQPKSEFTRVKKLDFSDFGPKKVTA
AEIGSATHSFMQYADFSQADLFSFQATLDEMGFDEKIKNQIDIAKILTLFDTDFGQFLSENVDKTVKEAPFSMLRTDEFA
KEQYIVRGICDGFVKLTDKIVLFDYKTDRFTSSSTISEIKERYRDQMNLYSEALKKAYDVNQVDKYLILLGGPQQVFVEK
LDD

Nucleotide


Download         Length: 3612 bp        

>NTDB_id=891817 AAEU35_RS07180 WP_317141425.1 1450108..1453719(-) (rexA) [Lactococcus lactis strain Q13]
ATGAGTGAAGTAAAATTAACTCCAGAGCAAAATGAAGCCATTCATAGTTCTGGTAAGAATATTCTAGTTTCAGCGAGTGC
TGGTTCCGGAAAAACTTTTGTTATGGCTCAAAGAATTGTCGAGAAAGTCAAACAAGGAATTGAAATTGATCGACTTTTCA
TTTCCACATTTACAAAAAAAGCAGCAAGCGAATTACGGATGCGGCTTGAGCGAGATTTAAAAAAAGCCAGACAAGAAAGT
TCTGATGAAAATCAAGCTCGTAGGTTGACACTTGCTTTACAGAACCTGTCAAATGCTGATATTGGAACTATGGATAGTTT
CACCCAAAAATTGACAAAAACGAATTTCAATCGAGTAAATATTGACCCGAATTTCCGAATCTTAGCTGATCAAACAGAGA
GTGATTTAATTAGACAAGAAGTCTTTGAACAATTGGTTGAGTCTTATCTATCAGAAGATGATGGATTGAATATTTCAAAA
GAAAAATTTGAAGAACTTATAAAAAATTTTTCTAAAGACAGAAATATTGCTGGTTTTCAAAAAGTAGTTTACACTATTTA
CCGTTTTGCGTCAGCAACTGAAAATCCAATAAAGTGGTTAGAAAATCAATTTTTAAAAGGTTTTGAAACATATAAATCAC
TGACAGACTTGTCTGCAGATTTTTCAGCAGATATAAAAGAGAATTTACTGATATTTTTTGAACTTCTAGAAACTTCATTA
ACCAATGGAGTAATTGCTAAAAAAGGGGCTGGACGTGATAAGGCCAATCTTATTTTAGATAATAAAAATGAACTCTTAGA
AGCAATAACCACTAAAGATTTTGCAACTTTCACAGAACTATTTTTATCAATAGATACAGATATTCGAGTGGGTTCTTCAA
AAGATGAAATACTTTCGGCTCTGAAAAAAGATTTTTCAGCACAAAAACAAGACTTAGTGGGCTCGAAATCCAAACCTGGA
GAAATTCGGAAGTTTGTTGATAAAATAAAACATGGTCAATTGATTGAAAAATATCAAAATCAGGCATTTGAAATCGCAGA
AAACTTACAAAAATTTGTTATTGAGTTTTACCAAAGTTATTTAGAACGTAAAAAGAATGAAAATGCCTTTGAGTACTCTG
ATATCGCACACTTTGCCATCGAAATTTTAGAGGAAAATCCAGATATACGTGAAACTTTAAGAGAACATTATGATGAAATC
ATGATTGATGAGTATCAGGATACCAGCCACACTCAGGAGCGAATGCTGGAACTTTTATCAAATGGACATAATCTCTTCAT
GGTTGGTGATATTAAGCAATCAATTTATGGCTTTCGTTTAGCTGACCCTGGCCTCTTTTTAGAAAAATATAAAGACTATG
CCAAGACAGAAAATCCAAATCAACTAATTCGCTTAAAAGAAAACTTTCGTTCACGTGGTGAGGTTTTAACATTTACAAAT
GATATCTTTAAACACCTGATGGATGAAAAATTAGGTGAGATAACTTATGGCAAAGAAGAAGCATTAGTTCAAGGAAATAT
TACTGATTATCCAGTTGAATCTGAGAAAGATTTTTATCCAGAACTTCTTTTATACAAAGAAAATACAAGTGATGAAGAAA
CAGATGAATCCGAAGTAAGAATTTCGGATGGAGAGATTAAAGGAGCAGCTCAAGAAATAAAAAAATTGATTGAAGCTGGA
GTTGAACCAAAAGATATAGCAATCTTGGTTCGTTCTAAATCAAATAATAATAAAATTGAGGATATTCTGCTTAGTTACGA
TATTCCGGTCGTTCTTGATGAAGGTCGAGTTGATTTTTTGAAATCAATGGAAGTCTTAATTATGCTAGACGTTTTACGAG
CAATTGATAATCCACTCTATGATTTATCATTGGTTGCGATGTTAAGGTCTCCGTTATTTGGATTTAATGAAGATGAATTA
ACTAGAATCAGTACTCAAGGAAGCCATGACCTTCGATTTTGGGATAAAATTCTTTTGTCACTTAATAAAGAAGGACAAAA
TCCAGAACTTATCAATCCTTCCTTAGAGAACAAGCTTAAAGCATTTCATAAGAAGTTTACAGAGTGGCGTAAACTTGTAA
ACCAAGTTGCAATTCACGATTTACTTTGGAAAATATATACCGAAACCTACTATTTTGACTATGTTGGTGCCTTAAAAAAT
GGTGAAATGCGTCAAGCGAACTTACAAGCCTTAGCGGTTCGAGCAGAATCATATGAAAGTTCTGGTTATAAAGGATTATT
TAAATTTGTAAGATTAATCAACAAATTTATGGAACAAAATAATGATTTAGCTTCTGTTAATATAAAACTTCCTCAAAATG
CTGTTCGAGTGATGACCTTCCATAAATCAAAAGGATTAGAATTTGATTATGTCTTTTTAATGAATTTACAATCTCGTTTC
AACGATCGTGATTTGAAAGAAGATGTTATCCTAAGTCGTGAAAATGGTTTAGGAATGAAGCTTATTGCTGATTTAAAGGA
TGAAGCAGATGTTATAACTGATTTCCCTTATGCTTTAGTGAAAATGGAAACATTCCCTTATATGGTGAATAAAGACTTAA
AACAAAGAGCAGCTCTCTCAGAAGAAATGCGTGTTTTATATGTTGCATTTACACGAGCAAAGAAAAAACTTTATCTTGTT
GGAAAAATAAAAGAAACAGATAAAAAATCAGGACTTGACCTTTATGATAATGCAAGTTTAGAAGGGAAGATTTTAGAAGG
TAAATTTCGTAATTCAAGTCGCGGTTTTCAACACTGGATATTGGCGCTTCAAAATGCCACAAAACTTCCGATTAAACTCA
ATGTCTACACAAAAGAAGAGTTGGAAGCAGAAAAACTTGAATTTACAAGTCAACCTGATTTCAAAAAATTGGTCGAAGAA
TCGGAAAAATTTGATAATATCATGGCCTATTCTGATGAAATACAAAAAGCTCAAAAAATTATGAATTATGAATATCCACA
TCAAGCAGCAACAGAGCTTTCAAGTATTCAAACACCAAGTCAGGTTAAAAAACGAAGCTACGAAAAACAATTACAAGTGG
GTGAAATTCAACCGAAAAGTGAATTTACTCGGGTCAAAAAACTAGATTTTTCTGATTTTGGTCCTAAGAAAGTTACTGCT
GCAGAAATCGGTTCGGCAACTCATAGTTTTATGCAGTATGCAGATTTTTCTCAAGCAGATTTATTTAGTTTTCAAGCGAC
ACTTGATGAAATGGGATTTGATGAAAAAATAAAAAATCAAATTGATATTGCTAAAATTTTGACTTTGTTTGATACAGATT
TCGGTCAGTTTTTATCAGAAAATGTTGATAAAACAGTTAAAGAAGCACCATTTTCAATGTTGAGAACAGATGAATTTGCT
AAAGAGCAGTATATTGTTCGGGGAATTTGTGATGGATTTGTTAAACTTACTGATAAAATCGTTCTATTTGATTATAAGAC
AGATAGATTTACAAGTTCTTCAACTATTTCTGAAATAAAAGAGCGTTATAGAGATCAGATGAATCTTTATAGTGAGGCTT
TGAAAAAAGCCTACGATGTCAACCAAGTTGACAAGTATCTCATTTTATTAGGAGGCCCTCAGCAAGTTTTTGTTGAAAAA
CTAGATGATTAG


Secondary structure


Protein secondary structures were predicted by S4PRED and visualized by seqviz.



3D structure


Source ID Structure

Transmembrane helices


Transmembrane helices of protein were predicted by TMHMM 2.0 and visualized by seqviz and ECharts.



Visualization of predicted probability:


Similar proteins


Only experimentally validated proteins are listed.

Protein Organism Identities (%) Coverage (%) Ha-value
  rexA Streptococcus pneumoniae R6

41.509

100

0.421